A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Multimode Robotic Materialization
Design to Robotic Fabrication Method of Integrating Subtractively Produced Hard Components and Additively Deposited Soft Silicone
This paper explores and discusses the implementation of multimode, subtractive-additive, robotic production methods. The research addresses the opportunities and challenges in the integration of subtractive and additive robotic manufacturing routines for architectural scale applications. It specifically presents a customized computational design to robotic fabrication workflow of a material system composed of subtractively produced expanded polystyrene and additively manufactured silicone. The integration of these two sets of production methods allows for a symbiosis of hard and soft materials. Through initial case studies and a pilot subtractive-additive prototype, this paper discusses how multimode robotic production methods, with the goal of purposefully expanding the potential of isolated fabrication techniques, results in multiscale and efficient design materialization. Furthermore, this paper demonstrates the design, computation, materialization, and prototyping process of a chair project with multiple materials in more detail.
Multimode Robotic Materialization
Design to Robotic Fabrication Method of Integrating Subtractively Produced Hard Components and Additively Deposited Soft Silicone
This paper explores and discusses the implementation of multimode, subtractive-additive, robotic production methods. The research addresses the opportunities and challenges in the integration of subtractive and additive robotic manufacturing routines for architectural scale applications. It specifically presents a customized computational design to robotic fabrication workflow of a material system composed of subtractively produced expanded polystyrene and additively manufactured silicone. The integration of these two sets of production methods allows for a symbiosis of hard and soft materials. Through initial case studies and a pilot subtractive-additive prototype, this paper discusses how multimode robotic production methods, with the goal of purposefully expanding the potential of isolated fabrication techniques, results in multiscale and efficient design materialization. Furthermore, this paper demonstrates the design, computation, materialization, and prototyping process of a chair project with multiple materials in more detail.
Multimode Robotic Materialization
Design to Robotic Fabrication Method of Integrating Subtractively Produced Hard Components and Additively Deposited Soft Silicone
Willmann, Jan (editor) / Block, Philippe (editor) / Hutter, Marco (editor) / Byrne, Kendra (editor) / Schork, Tim (editor) / Mostafavi, Sina (author) / Kemper, Benjamin N. (author) / Fischer, Daniel L. (author)
Robotic Fabrication in Architecture, Art and Design ; 2018 ; Zurich, Switzerland
Robotic Fabrication in Architecture, Art and Design 2018 ; Chapter: 27 ; 349-362
2018-08-26
14 pages
Article/Chapter (Book)
Electronic Resource
English